The exact percentage reduction in epidemic size as a function of vaccine recovery rate, γv (x axis), vaccine R0,v (lines), and rate of direct vaccination, σ (column).

The effective reproduction number under vaccination practice.

Keisuke Ejima (402068)
Kazuyuki Aihara (44090)
Hiroshi Nishiura (65852)

April 2013

Effective reproduction numbers for the observable model and the unobservable model are compared a...

Tradeoffs involving coupling, time delay and available vaccine represented by contours of combined final epidemic size.

Chantal Nguyen (2589940)
Jean M. Carlson (215340)

April 2016

The mean final epidemic size for two coupled cities 〈E〉 is plotted as a function of fracti...

Expected Final Outbreak Size and CV in the Final Outbreak Size as a Function of Intervention Effectiveness

John M Drake (59277)

February 2013

The expected final outbreak size (solid line) and CV in the final outbreak size (dashed line) are...

Percentage change in epidemic size as a function of the rate of direct vaccination calculated from numerical solutions to (3) and the average of 1000 stochastic simulations for each rate of direct vaccination.

Scott L. Nuismer (3223827)
Ryan May (335516)
Andrew Basinski (5204810)
Christopher H. Remien (363131)

May 2018

Dashed lines and shaded area denote the lower 5% and upper 95% of simulated values. Parameter val...

(a) Fraction of recovery individuals R, (b) Fraction of vaccinated individuals V, (c) Magnetization of the opinions Mag and (d) The duration time of the epidemic τ, as a function of the efficiency of the vaccine ω.

Lucila G. Alvarez-Zuzek (535884)
Cristian E. La Rocca (3186726)
José R. Iglesias (4582159)
Lidia A. Braunstein (535886)

November 2017

Inset: τ (solid line), the derivative of R (dashed line) and the derivative of V...

Mean final epidemic size as a function of the fraction of vaccine allocated to city B.

Chantal Nguyen (2589940)
Jean M. Carlson (215340)

April 2016

The stochastic combined mean final epidemic size 〈E〉 as a function of the fractional alloc...

The time course of epidemics for scenarios where vaccination relies on a traditional vaccine, a transmissible vaccine with R0,v = 0.5 and a transmissible vaccine with R0,v = 0.9.

Scott L. Nuismer (3223827)
Ryan May (335516)
Andrew Basinski (5204810)
Christopher H. Remien (363131)

May 2018

Lines show the proportion of the host population infected at a particular time, and each panel sh...

Proportions of the population infected at the end of an outbreak, conditional on the selection of vaccination strategy under different response times.

Yun Tao (36115)
Katriona Shea (58432)
Matthew Ferrari (324213)

May 2018

Given population density, 60 simulation replicates were run for each vaccination diffusion rate <...

Fractional reduction in costs associated with the optimal vaccination strategy.

Andrew J. Basinski (6439802)
Scott L. Nuismer (3223827)
Christopher H. Remien (363131)

March 2019

Each region shows the cost-savings realized in a campaign that maintains seroprevalence at the 0.5 h...

Comparison of the effects of vaccination between stochastic and deterministic models for various values of r0 and I0.

Edwin C. Yuan (692914)
David L. Alderson (326216)
Sean Stromberg (692915)
Jean M. Carlson (215340)

February 2015

Figures A, B, and C illustrate the epidemic size as a function of the number of individuals vacci...

The vaccination thresholds for eliminating the epidemic with respect to different disease reproduction numbers: (1) R0 = 1.2; (2) R0 = 1.6; (3) R0 = 2.0.

Shang Xia (400971)
Jiming Liu (347937)

April 2013

The vaccination thresholds for eliminating the epidemic with respect to different disease reprodu...

Final infection size as a function of the immunization method and the infection start time.

Lorenzo Coviello (140229)
Massimo Franceschetti (140231)
Manuel García-Herranz (6707861)
Iyad Rahwan (303301)

May 2019

Given immunization budget b = 5% of the entire population, for each immunization type, 5000 simulati...

Proportional change in flight distance and vaccination rate due to vaccine transmission.

Andrew J. Basinski (6439802)
Scott L. Nuismer (3223827)
Christopher H. Remien (363131)

March 2019

The red dashed line shows the reduction in vaccine baits predicted for a homogeneous population. Oth...

Optimal Protocols Represented as a Fraction of Total Vaccine.

Edwin C. Yuan (692914)
David L. Alderson (326216)
Sean Stromberg (692915)
Jean M. Carlson (215340)

February 2015

The solid blue line shows the optimal fraction of the available vaccine allocated to the smaller ...

Relation between vaccination coverage and overall attack rate in the baseline scenario.

Michiel van Boven (246109)
Wilhelmina L. M. Ruijs (409332)
Jacco Wallinga (27307)
Philip D. O'Neill (409333)
Susan Hahné (246125)

May 2013

The figure shows the medians of the posterior vaccination coverages versus posterior attack rates...

The effective reproduction number under vaccination practice.

Keisuke Ejima (402068)
Kazuyuki Aihara (44090)
Hiroshi Nishiura (65852)

April 2013

Effective reproduction numbers for the observable model and the unobservable model are compared a...

Tradeoffs involving coupling, time delay and available vaccine represented by contours of combined final epidemic size.

Chantal Nguyen (2589940)
Jean M. Carlson (215340)

April 2016

The mean final epidemic size for two coupled cities 〈E〉 is plotted as a function of fracti...

Expected Final Outbreak Size and CV in the Final Outbreak Size as a Function of Intervention Effectiveness

John M Drake (59277)

February 2013

The expected final outbreak size (solid line) and CV in the final outbreak size (dashed line) are...

Percentage change in epidemic size as a function of the rate of direct vaccination calculated from numerical solutions to (3) and the average of 1000 stochastic simulations for each rate of direct vaccination.

Scott L. Nuismer (3223827)
Ryan May (335516)
Andrew Basinski (5204810)
Christopher H. Remien (363131)

May 2018

Dashed lines and shaded area denote the lower 5% and upper 95% of simulated values. Parameter val...

(a) Fraction of recovery individuals R, (b) Fraction of vaccinated individuals V, (c) Magnetization of the opinions Mag and (d) The duration time of the epidemic τ, as a function of the efficiency of the vaccine ω.

Lucila G. Alvarez-Zuzek (535884)
Cristian E. La Rocca (3186726)
José R. Iglesias (4582159)
Lidia A. Braunstein (535886)

November 2017

Inset: τ (solid line), the derivative of R (dashed line) and the derivative of V...

Mean final epidemic size as a function of the fraction of vaccine allocated to city B.

Chantal Nguyen (2589940)
Jean M. Carlson (215340)

April 2016

The stochastic combined mean final epidemic size 〈E〉 as a function of the fractional alloc...

The time course of epidemics for scenarios where vaccination relies on a traditional vaccine, a transmissible vaccine with R0,v = 0.5 and a transmissible vaccine with R0,v = 0.9.

Scott L. Nuismer (3223827)
Ryan May (335516)
Andrew Basinski (5204810)
Christopher H. Remien (363131)

May 2018

Lines show the proportion of the host population infected at a particular time, and each panel sh...

Proportions of the population infected at the end of an outbreak, conditional on the selection of vaccination strategy under different response times.

Yun Tao (36115)
Katriona Shea (58432)
Matthew Ferrari (324213)

May 2018

Given population density, 60 simulation replicates were run for each vaccination diffusion rate <...

Fractional reduction in costs associated with the optimal vaccination strategy.

Andrew J. Basinski (6439802)
Scott L. Nuismer (3223827)
Christopher H. Remien (363131)

March 2019

Each region shows the cost-savings realized in a campaign that maintains seroprevalence at the 0.5 h...

Comparison of the effects of vaccination between stochastic and deterministic models for various values of r0 and I0.

Edwin C. Yuan (692914)
David L. Alderson (326216)
Sean Stromberg (692915)
Jean M. Carlson (215340)

February 2015

Figures A, B, and C illustrate the epidemic size as a function of the number of individuals vacci...

The vaccination thresholds for eliminating the epidemic with respect to different disease reproduction numbers: (1) R0 = 1.2; (2) R0 = 1.6; (3) R0 = 2.0.

Shang Xia (400971)
Jiming Liu (347937)

April 2013

The vaccination thresholds for eliminating the epidemic with respect to different disease reprodu...

Final infection size as a function of the immunization method and the infection start time.

Lorenzo Coviello (140229)
Massimo Franceschetti (140231)
Manuel García-Herranz (6707861)
Iyad Rahwan (303301)

May 2019

Given immunization budget b = 5% of the entire population, for each immunization type, 5000 simulati...

Proportional change in flight distance and vaccination rate due to vaccine transmission.

Andrew J. Basinski (6439802)
Scott L. Nuismer (3223827)
Christopher H. Remien (363131)

March 2019

The red dashed line shows the reduction in vaccine baits predicted for a homogeneous population. Oth...

Optimal Protocols Represented as a Fraction of Total Vaccine.

Edwin C. Yuan (692914)
David L. Alderson (326216)
Sean Stromberg (692915)
Jean M. Carlson (215340)

February 2015

The solid blue line shows the optimal fraction of the available vaccine allocated to the smaller ...

Relation between vaccination coverage and overall attack rate in the baseline scenario.

Michiel van Boven (246109)
Wilhelmina L. M. Ruijs (409332)
Jacco Wallinga (27307)
Philip D. O'Neill (409333)
Susan Hahné (246125)

May 2013

The figure shows the medians of the posterior vaccination coverages versus posterior attack rates...

The effective reproduction number under vaccination practice.

Keisuke Ejima (402068)
Kazuyuki Aihara (44090)
Hiroshi Nishiura (65852)

April 2013

Effective reproduction numbers for the observable model and the unobservable model are compared a...

Tradeoffs involving coupling, time delay and available vaccine represented by contours of combined final epidemic size.

Chantal Nguyen (2589940)
Jean M. Carlson (215340)

April 2016

The mean final epidemic size for two coupled cities 〈E〉 is plotted as a function of fracti...

Expected Final Outbreak Size and CV in the Final Outbreak Size as a Function of Intervention Effectiveness

John M Drake (59277)

February 2013

The expected final outbreak size (solid line) and CV in the final outbreak size (dashed line) are...

The exact percentage reduction in epidemic size as a function of vaccine recovery rate, <i>γ</i><sub><i>v</i></sub> (x axis), vaccine <i>R</i><sub>0,<i>v</i></sub> (lines), and rate of direct vaccination, <i>σ</i> (column).

Abstract

Extracted data

The exact percentage reduction in epidemic size as a function of vaccine recovery rate, <i>γ</i><sub><i>v</i></sub> (x axis), vaccine <i>R</i><sub>0,<i>v</i></sub> (lines), and rate of direct vaccination, <i>σ</i> (column).

Abstract

Extracted data

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